// Unity C# reference source
// Copyright (c) Unity Technologies. For terms of use, see
// https://unity3d.com/legal/licenses/Unity_Reference_Only_License

using UnityEditor.AnimatedValues;
using UnityEngine;
using UnityEditor.Build;
using System.Collections.Generic;
using System;
using UnityEditor.Experimental.AssetImporters;
using Object = UnityEngine.Object;
using VirtualTexturing = UnityEngine.Rendering.VirtualTexturing;

namespace UnityEditor
{
    // Cubemap convolution mode
    public enum TextureImporterCubemapConvolution
    {
        // Do not convolve cubemap (default).
        None = 0,
        // Convolve for specular reflections with varying roughness.
        Specular = 1,
        // Convolve for diffuse-only reflection (irradiance cubemap).
        Diffuse = 2
    }

    // Kept for backward compatibility
    public enum TextureImporterRGBMMode
    {
        Auto = 0,
        On = 1,
        Off = 2,
        Encoded = 3,
    }

    [CustomEditor(typeof(TextureImporter))]
    [CanEditMultipleObjects]
    internal class TextureImporterInspector : AssetImporterEditor
    {
        public static string s_DefaultPlatformName = "DefaultTexturePlatform";

        [Flags]
        private enum TextureInspectorGUIElement
        {
            None = 0,
            PowerOfTwo = 1 << 0,
            Readable = 1 << 1,
            AlphaHandling = 1 << 2,
            ColorSpace = 1 << 3,
            MipMaps = 1 << 4,
            NormalMap = 1 << 5,
            Sprite = 1 << 6,
            Cookie = 1 << 7,
            CubeMapConvolution = 1 << 8,
            CubeMapping = 1 << 9,
            StreamingMipmaps = 1 << 10,
            SingleChannelComponent = 1 << 11,
            PngGamma = 1 << 12,
            ElementsAtlas = 1 << 14,
        }

        private struct TextureInspectorTypeGUIProperties
        {
            public TextureInspectorGUIElement   commonElements;
            public TextureInspectorGUIElement   advancedElements;
            public TextureImporterShape         shapeCaps;

            public TextureInspectorTypeGUIProperties(TextureInspectorGUIElement _commonElements, TextureInspectorGUIElement _advancedElements, TextureImporterShape _shapeCaps)
            {
                commonElements          = _commonElements;
                advancedElements        = _advancedElements;
                shapeCaps               = _shapeCaps;
            }
        }

        SerializedProperty m_TextureType;
        internal TextureImporterType textureType
        {
            get
            {
                if (m_TextureType.hasMultipleDifferentValues)
                    return (TextureImporterType)0;
                return (TextureImporterType)(m_TextureType.intValue);
            }
        }

        private delegate void GUIMethod(TextureInspectorGUIElement guiElements);
        private Dictionary<TextureInspectorGUIElement, GUIMethod> m_GUIElementMethods = new Dictionary<TextureInspectorGUIElement, GUIMethod>();


        internal bool textureTypeHasMultipleDifferentValues
        {
            get { return m_TextureType.hasMultipleDifferentValues; }
        }

        public override void OnDisable()
        {
            base.OnDisable();

            EditorPrefs.SetBool("TextureImporterShowAdvanced", m_ShowAdvanced);
        }

        // Don't show the imported texture as a separate editor
        public override bool showImportedObject { get { return false; } }

        public static bool IsCompressedDXTTextureFormat(TextureImporterFormat format)
        {
            return (format == TextureImporterFormat.DXT1 || format == TextureImporterFormat.DXT5);
        }

        // Which platforms should we display?
        // For each of these, what are the formats etc. to display?
        [SerializeField]
        internal List<TextureImportPlatformSettings> m_PlatformSettings;

        internal static readonly TextureImporterFormat[] kFormatsWithCompressionSettings =
        {
            TextureImporterFormat.DXT1Crunched,
            TextureImporterFormat.DXT5Crunched,
            TextureImporterFormat.ETC_RGB4Crunched,
            TextureImporterFormat.ETC2_RGBA8Crunched,
            TextureImporterFormat.PVRTC_RGB2,
            TextureImporterFormat.PVRTC_RGB4,
            TextureImporterFormat.PVRTC_RGBA2,
            TextureImporterFormat.PVRTC_RGBA4,
            TextureImporterFormat.ETC_RGB4,
            TextureImporterFormat.ETC2_RGB4,
            TextureImporterFormat.ETC2_RGB4_PUNCHTHROUGH_ALPHA,
            TextureImporterFormat.ETC2_RGBA8,
            TextureImporterFormat.ASTC_4x4,
            TextureImporterFormat.ASTC_5x5,
            TextureImporterFormat.ASTC_6x6,
            TextureImporterFormat.ASTC_8x8,
            TextureImporterFormat.ASTC_10x10,
            TextureImporterFormat.ASTC_12x12,
            TextureImporterFormat.ASTC_HDR_4x4,
            TextureImporterFormat.ASTC_HDR_5x5,
            TextureImporterFormat.ASTC_HDR_6x6,
            TextureImporterFormat.ASTC_HDR_8x8,
            TextureImporterFormat.ASTC_HDR_10x10,
            TextureImporterFormat.ASTC_HDR_12x12,
            TextureImporterFormat.BC6H,
            TextureImporterFormat.BC7
        };

        enum CookieMode
        {
            Spot = 0, Directional = 1, Point = 2
        }

        readonly AnimBool m_ShowBumpGenerationSettings = new AnimBool();
        readonly AnimBool m_ShowCubeMapSettings = new AnimBool();
        readonly AnimBool m_ShowElementsAtlasSettings = new AnimBool();
        readonly AnimBool m_ShowGenericSpriteSettings = new AnimBool();
        readonly AnimBool m_ShowMipMapSettings = new AnimBool();
        readonly AnimBool m_ShowSpriteMeshTypeOption = new AnimBool();
        readonly GUIContent m_EmptyContent = new GUIContent(" ");

        readonly int[] m_FilterModeOptions = (int[])(Enum.GetValues(typeof(FilterMode)));

        string  m_ImportWarning = null;
        private void UpdateImportWarning()
        {
            TextureImporter importer = target as TextureImporter;
            m_ImportWarning = importer ? importer.GetImportWarnings() : null;
        }

        internal class Styles
        {
            public readonly GUIContent textureTypeTitle = EditorGUIUtility.TrTextContent("Texture Type", "What will this texture be used for?");
            public readonly GUIContent[] textureTypeOptions =
            {
                EditorGUIUtility.TrTextContent("Default", "Texture is a normal image such as a diffuse texture or other."),
                EditorGUIUtility.TrTextContent("Normal map", "Texture is a bump or normal map."),
                EditorGUIUtility.TrTextContent("Editor GUI and Legacy GUI", "Texture is used for a GUI element."),
                EditorGUIUtility.TrTextContent("Sprite (2D and UI)", "Texture is used for a sprite."),
                EditorGUIUtility.TrTextContent("Cursor", "Texture is used for a cursor."),
                EditorGUIUtility.TrTextContent("Cookie", "Texture is a cookie you put on a light."),
                EditorGUIUtility.TrTextContent("Lightmap", "Texture is a lightmap."),
                EditorGUIUtility.TrTextContent("Single Channel", "Texture is a one component texture."),
            };
            public readonly int[] textureTypeValues =
            {
                (int)TextureImporterType.Default,
                (int)TextureImporterType.NormalMap,
                (int)TextureImporterType.GUI,
                (int)TextureImporterType.Sprite,
                (int)TextureImporterType.Cursor,
                (int)TextureImporterType.Cookie,
                (int)TextureImporterType.Lightmap,
                (int)TextureImporterType.SingleChannel
            };

            public readonly GUIContent textureShape = EditorGUIUtility.TrTextContent("Texture Shape", "What shape is this texture?");
            readonly GUIContent textureShape2D = EditorGUIUtility.TrTextContent("2D", "Texture is 2D.");
            readonly GUIContent textureShapeCube = EditorGUIUtility.TrTextContent("Cube", "Texture is a Cubemap.");
            readonly GUIContent textureShape2DArray = EditorGUIUtility.TrTextContent("2D Array", "Texture is a 2D Array.");
            readonly GUIContent textureShape3D = EditorGUIUtility.TrTextContent("3D", "Texture is 3D.");
            public readonly Dictionary<TextureImporterShape, GUIContent[]> textureShapeOptionsDictionnary = new Dictionary<TextureImporterShape, GUIContent[]>();
            public readonly Dictionary<TextureImporterShape, int[]> textureShapeValuesDictionnary = new Dictionary<TextureImporterShape, int[]>();


            public readonly GUIContent filterMode = EditorGUIUtility.TrTextContent("Filter Mode");
            public readonly GUIContent[] filterModeOptions =
            {
                EditorGUIUtility.TrTextContent("Point (no filter)"),
                EditorGUIUtility.TrTextContent("Bilinear"),
                EditorGUIUtility.TrTextContent("Trilinear")
            };

            public readonly GUIContent cookieType = EditorGUIUtility.TrTextContent("Light Type");
            public readonly GUIContent[] cookieOptions =
            {
                EditorGUIUtility.TrTextContent("Spotlight"),
                EditorGUIUtility.TrTextContent("Directional"),
                EditorGUIUtility.TrTextContent("Point"),
            };
            public readonly GUIContent generateFromBump = EditorGUIUtility.TrTextContent("Create from Grayscale", "The grayscale of the image is used as a heightmap for generating the normal map.");
            public readonly GUIContent bumpiness = EditorGUIUtility.TrTextContent("Bumpiness");
            public readonly GUIContent bumpFiltering = EditorGUIUtility.TrTextContent("Filtering");
            public readonly GUIContent[] bumpFilteringOptions =
            {
                EditorGUIUtility.TrTextContent("Sharp"),
                EditorGUIUtility.TrTextContent("Smooth"),
            };
            public readonly GUIContent cubemap = EditorGUIUtility.TrTextContent("Mapping");
            public readonly GUIContent[] cubemapOptions =
            {
                EditorGUIUtility.TrTextContent("Auto"),
                EditorGUIUtility.TrTextContent("6 Frames Layout (Cubic Environment)", "Texture contains 6 images arranged in one of the standard cubemap layouts - cross or sequence (+x, -x, +y, -y, +z, -z). Texture can be in vertical or horizontal orientation."),
                EditorGUIUtility.TrTextContent("Latitude-Longitude Layout (Cylindrical)", "Texture contains an image of a ball unwrapped such that latitude and longitude are mapped to horizontal and vertical dimensions (as on a globe)."),
                EditorGUIUtility.TrTextContent("Mirrored Ball (Spheremap)", "Texture contains an image of a mirrored ball.")
            };
            public readonly int[] cubemapValues2 =
            {
                (int)TextureImporterGenerateCubemap.AutoCubemap,
                (int)TextureImporterGenerateCubemap.FullCubemap,
                (int)TextureImporterGenerateCubemap.Cylindrical,
                (int)TextureImporterGenerateCubemap.Spheremap
            };

            public readonly GUIContent cubemapConvolution = EditorGUIUtility.TrTextContent("Convolution Type");
            public readonly GUIContent[] cubemapConvolutionOptions =
            {
                EditorGUIUtility.TrTextContent("None"),
                EditorGUIUtility.TrTextContent("Specular (Glossy Reflection)", "Convolve cubemap for specular reflections with varying smoothness (Glossy Reflections)."),
                EditorGUIUtility.TrTextContent("Diffuse (Irradiance)", "Convolve cubemap for diffuse-only reflection (Irradiance Cubemap).")
            };
            public readonly int[] cubemapConvolutionValues =
            {
                (int)TextureImporterCubemapConvolution.None,
                (int)TextureImporterCubemapConvolution.Specular,
                (int)TextureImporterCubemapConvolution.Diffuse
            };

            public readonly GUIContent seamlessCubemap = EditorGUIUtility.TrTextContent("Fixup Edge Seams", "Enable if this texture is used for glossy reflections.");
            public readonly GUIContent textureFormat = EditorGUIUtility.TrTextContent("Format");

            public readonly GUIContent mipmapFadeOutToggle = EditorGUIUtility.TrTextContent("Fadeout Mip Maps");
            public readonly GUIContent mipmapFadeOut = EditorGUIUtility.TrTextContent("Fade Range");
            public readonly GUIContent readWrite = EditorGUIUtility.TrTextContent("Read/Write Enabled", "Enable to be able to access the raw pixel data from code.");
            public readonly GUIContent streamingMipmaps = EditorGUIUtility.TrTextContent("Streaming Mipmaps", "Only load larger mipmaps as needed to render the current game cameras. Requires texture streaming to be enabled in quality settings.");
            public readonly GUIContent streamingMipmapsPriority = EditorGUIUtility.TrTextContent("Mip Map Priority", "Mip map streaming priority when there's contention for resources. Positive numbers represent higher priority. Valid range is -128 to 127.");

            public readonly GUIContent alphaSource = EditorGUIUtility.TrTextContent("Alpha Source", "How is the alpha generated for the imported texture.");
            public readonly GUIContent[] alphaSourceOptions =
            {
                EditorGUIUtility.TrTextContent("None", "No Alpha will be used."),
                EditorGUIUtility.TrTextContent("Input Texture Alpha", "Use Alpha from the input texture if one is provided."),
                EditorGUIUtility.TrTextContent("From Gray Scale", "Generate Alpha from image gray scale."),
            };
            public readonly int[] alphaSourceValues =
            {
                (int)TextureImporterAlphaSource.None,
                (int)TextureImporterAlphaSource.FromInput,
                (int)TextureImporterAlphaSource.FromGrayScale,
            };

            public readonly GUIContent singleChannelComponent = EditorGUIUtility.TrTextContent("Channel", "As which color/alpha component the single channel texture is treated.");
            public readonly GUIContent[] singleChannelComponentOptions =
            {
                EditorGUIUtility.TrTextContent("Alpha", "Use the alpha channel (compression not supported)."),
                EditorGUIUtility.TrTextContent("Red", "Use the red color component."),
            };
            public readonly int[] singleChannelComponentValues =
            {
                (int)TextureImporterSingleChannelComponent.Alpha,
                (int)TextureImporterSingleChannelComponent.Red,
            };

            public readonly GUIContent generateMipMaps = EditorGUIUtility.TrTextContent("Generate Mip Maps");
            public readonly GUIContent sRGBTexture = EditorGUIUtility.TrTextContent("sRGB (Color Texture)", "Texture content is stored in gamma space. Non-HDR color textures should enable this flag (except if used for IMGUI).");
            public readonly GUIContent borderMipMaps = EditorGUIUtility.TrTextContent("Border Mip Maps");
            public readonly GUIContent mipMapsPreserveCoverage = EditorGUIUtility.TrTextContent("Mip Maps Preserve Coverage", "The alpha channel of generated Mip Maps will preserve coverage during the alpha test.");
            public readonly GUIContent alphaTestReferenceValue = EditorGUIUtility.TrTextContent("Alpha Cutoff Value", "The reference value used during the alpha test. Controls Mip Map coverage.");
            public readonly GUIContent mipMapFilter = EditorGUIUtility.TrTextContent("Mip Map Filtering");
            public readonly GUIContent[] mipMapFilterOptions =
            {
                EditorGUIUtility.TrTextContent("Box"),
                EditorGUIUtility.TrTextContent("Kaiser"),
            };
            public readonly GUIContent npot = EditorGUIUtility.TrTextContent("Non-Power of 2", "How non-power-of-two textures are scaled on import.");
            public readonly GUIContent generateCubemap = EditorGUIUtility.TrTextContent("Generate Cubemap");

            public readonly GUIContent spriteMode = EditorGUIUtility.TrTextContent("Sprite Mode");
            public readonly GUIContent[] spriteModeOptions =
            {
                EditorGUIUtility.TrTextContent("Single"),
                EditorGUIUtility.TrTextContent("Multiple"),
                EditorGUIUtility.TrTextContent("Polygon"),
            };
            public readonly GUIContent[] spriteMeshTypeOptions =
            {
                EditorGUIUtility.TrTextContent("Full Rect"),
                EditorGUIUtility.TrTextContent("Tight"),
            };

            public readonly GUIContent spritePackingTag = EditorGUIUtility.TrTextContent("Packing Tag", "Tag for the Sprite Packing system.");
            public readonly GUIContent spritePixelsPerUnit = EditorGUIUtility.TrTextContent("Pixels Per Unit", "How many pixels in the sprite correspond to one unit in the world.");
            public readonly GUIContent spriteExtrude = EditorGUIUtility.TrTextContent("Extrude Edges", "How much empty area to leave around the sprite in the generated mesh.");
            public readonly GUIContent spriteMeshType = EditorGUIUtility.TrTextContent("Mesh Type", "Type of sprite mesh to generate.");
            public readonly GUIContent spriteAlignment = EditorGUIUtility.TrTextContent("Pivot", "Sprite pivot point in its localspace. May be used for syncing animation frames of different sizes.");
            public readonly GUIContent[] spriteAlignmentOptions =
            {
                EditorGUIUtility.TrTextContent("Center"),
                EditorGUIUtility.TrTextContent("Top Left"),
                EditorGUIUtility.TrTextContent("Top"),
                EditorGUIUtility.TrTextContent("Top Right"),
                EditorGUIUtility.TrTextContent("Left"),
                EditorGUIUtility.TrTextContent("Right"),
                EditorGUIUtility.TrTextContent("Bottom Left"),
                EditorGUIUtility.TrTextContent("Bottom"),
                EditorGUIUtility.TrTextContent("Bottom Right"),
                EditorGUIUtility.TrTextContent("Custom"),
            };
            public readonly GUIContent spriteGenerateFallbackPhysicsShape = EditorGUIUtility.TrTextContent("Generate Physics Shape", "Generates a default physics shape from the outline of the Sprite/s when a physics shape has not been set in the Sprite Editor.");

            public readonly GUIContent alphaIsTransparency = EditorGUIUtility.TrTextContent("Alpha Is Transparency", "If the provided alpha channel is transparency, enable this to pre-filter the color to avoid texture filtering artifacts. This is not supported for HDR textures.");

            public readonly GUIContent showAdvanced = EditorGUIUtility.TrTextContent("Advanced", "Show advanced settings.");

            public readonly GUIContent psdRemoveMatte = EditorGUIUtility.TrTextContent("Remove Matte (PSD)", "Enable special processing for PSD that has transparency, as color pixels will be tweaked (blended with white color).");
            public readonly GUIContent psdRemoveMatteInfo = EditorGUIUtility.TrTextContent("If you have PSD with transparency, colors will be tweaked by blending them with white color. Matte removal refers to our attempts to undo that.");
            public readonly GUIContent psdRemoveMatteURLButton = EditorGUIUtility.TrTextContent("How to handle PSD with alpha");
            public readonly string psdRemoveMatteURL = "https://docs.unity3d.com/Manual/HOWTO-alphamaps.html";

            public readonly GUIContent ignorePngGamma = EditorGUIUtility.TrTextContent("Ignore PNG file gamma", "Ignore the Gamma value attribute in PNG files, this setting has no effect on other file formats.");
            public readonly GUIContent readWriteWarning = EditorGUIUtility.TrTextContent("Textures larger than 8192 can not be Read/Write enabled. Value will be ignored.");

            public readonly GUIContent flipbookColumns = EditorGUIUtility.TrTextContent("Columns", "Source image is divided into this amount of columns.");
            public readonly GUIContent flipbookRows = EditorGUIUtility.TrTextContent("Rows", "Source image is divided into this amount of rows.");

            public Styles()
            {
                // This is far from ideal, but it's better than having tons of logic in the GUI code itself.
                // The combination should not grow too much.
                GUIContent[] s2D_Options = { textureShape2D };
                GUIContent[] sCube_Options = { textureShapeCube };
                GUIContent[] s2D_Cube_Options = { textureShape2D, textureShapeCube };
                GUIContent[] sAll_Options = { textureShape2D, textureShapeCube, textureShape2DArray, textureShape3D };
                textureShapeOptionsDictionnary.Add(TextureImporterShape.Texture2D, s2D_Options);
                textureShapeOptionsDictionnary.Add(TextureImporterShape.TextureCube, sCube_Options);
                textureShapeOptionsDictionnary.Add(TextureImporterShape.Texture2D | TextureImporterShape.TextureCube, s2D_Cube_Options);
                textureShapeOptionsDictionnary.Add(TextureImporterShape.Texture2D | TextureImporterShape.TextureCube | TextureImporterShape.Texture2DArray | TextureImporterShape.Texture3D, sAll_Options);

                int[] s2D_Values = { (int)TextureImporterShape.Texture2D };
                int[] sCube_Values = { (int)TextureImporterShape.TextureCube };
                int[] s2D_Cube_Values = { (int)TextureImporterShape.Texture2D, (int)TextureImporterShape.TextureCube };
                int[] sAll_Values = { (int)TextureImporterShape.Texture2D, (int)TextureImporterShape.TextureCube, (int)TextureImporterShape.Texture2DArray, (int)TextureImporterShape.Texture3D };
                textureShapeValuesDictionnary.Add(TextureImporterShape.Texture2D, s2D_Values);
                textureShapeValuesDictionnary.Add(TextureImporterShape.TextureCube, sCube_Values);
                textureShapeValuesDictionnary.Add(TextureImporterShape.Texture2D | TextureImporterShape.TextureCube, s2D_Cube_Values);
                textureShapeValuesDictionnary.Add(TextureImporterShape.Texture2D | TextureImporterShape.TextureCube | TextureImporterShape.Texture2DArray | TextureImporterShape.Texture3D, sAll_Values);
            }
        }

        internal static Styles s_Styles;

        TextureInspectorTypeGUIProperties[] m_TextureTypeGUIElements = new TextureInspectorTypeGUIProperties[Enum.GetValues(typeof(TextureImporterType)).Length];
        List<TextureInspectorGUIElement>    m_GUIElementsDisplayOrder = new List<TextureInspectorGUIElement>();


        void ToggleFromInt(SerializedProperty property, GUIContent label)
        {
            var content = EditorGUI.BeginProperty(EditorGUILayout.BeginHorizontal(), label, property);
            EditorGUI.BeginChangeCheck();
            EditorGUI.showMixedValue = property.hasMultipleDifferentValues;
            int value = EditorGUILayout.Toggle(content, property.intValue > 0) ? 1 : 0;
            EditorGUI.showMixedValue = false;
            if (EditorGUI.EndChangeCheck())
                property.intValue = value;
            EditorGUILayout.EndHorizontal();
            EditorGUI.EndProperty();
        }

        void EnumPopup(SerializedProperty property, System.Type type, GUIContent label)
        {
            EditorGUILayout.IntPopup(property,
                EditorGUIUtility.TempContent(System.Enum.GetNames(type)),
                System.Enum.GetValues(type) as int[],
                label);
        }

        SerializedProperty m_AlphaSource;
        SerializedProperty m_ConvertToNormalMap;
        SerializedProperty m_HeightScale;
        SerializedProperty m_NormalMapFilter;
        SerializedProperty m_GenerateCubemap;
        SerializedProperty m_CubemapConvolution;
        SerializedProperty m_SeamlessCubemap;
        SerializedProperty m_BorderMipMap;
        SerializedProperty m_MipMapsPreserveCoverage;
        SerializedProperty m_AlphaTestReferenceValue;
        SerializedProperty m_NPOTScale;
        SerializedProperty m_IsReadable;
        SerializedProperty m_StreamingMipmaps;
        SerializedProperty m_StreamingMipmapsPriority;

        SerializedProperty m_sRGBTexture;
        SerializedProperty m_EnableMipMap;
        SerializedProperty m_MipMapMode;
        SerializedProperty m_FadeOut;
        SerializedProperty m_MipMapFadeDistanceStart;
        SerializedProperty m_MipMapFadeDistanceEnd;

        SerializedProperty m_Aniso;
        SerializedProperty m_FilterMode;
        SerializedProperty m_WrapU;
        SerializedProperty m_WrapV;
        SerializedProperty m_WrapW;

        SerializedProperty m_SpritePackingTag;
        SerializedProperty m_SpritePixelsToUnits;
        SerializedProperty m_SpriteExtrude;
        SerializedProperty m_SpriteMeshType;
        SerializedProperty m_Alignment;
        SerializedProperty m_SpritePivot;
        SerializedProperty m_SpriteGenerateFallbackPhysicsShape;

        SerializedProperty m_AlphaIsTransparency;
        SerializedProperty m_IgnorePngGamma;
        SerializedProperty m_PSDRemoveMatte;

        SerializedProperty m_TextureShape;

        SerializedProperty m_SpriteMode;

        SerializedProperty m_FlipbookRows;
        SerializedProperty m_FlipbookColumns;

        SerializedProperty m_SingleChannelComponent;
        List<TextureImporterType> m_TextureTypes;
        internal SpriteImportMode spriteImportMode
        {
            get
            {
                return (SpriteImportMode)m_SpriteMode.intValue;
            }
        }

        bool m_ShowAdvanced = false;

        int     m_TextureWidth = 0;
        int     m_TextureHeight = 0;
        bool    m_IsPOT = false;

        void CacheSerializedProperties()
        {
            m_AlphaSource = serializedObject.FindProperty("m_AlphaUsage");
            m_ConvertToNormalMap = serializedObject.FindProperty("m_ConvertToNormalMap");
            m_HeightScale = serializedObject.FindProperty("m_HeightScale");
            m_NormalMapFilter = serializedObject.FindProperty("m_NormalMapFilter");
            m_GenerateCubemap = serializedObject.FindProperty("m_GenerateCubemap");
            m_SeamlessCubemap = serializedObject.FindProperty("m_SeamlessCubemap");
            m_BorderMipMap = serializedObject.FindProperty("m_BorderMipMap");
            m_MipMapsPreserveCoverage = serializedObject.FindProperty("m_MipMapsPreserveCoverage");
            m_AlphaTestReferenceValue = serializedObject.FindProperty("m_AlphaTestReferenceValue");
            m_NPOTScale = serializedObject.FindProperty("m_NPOTScale");
            m_IsReadable = serializedObject.FindProperty("m_IsReadable");
            m_StreamingMipmaps = serializedObject.FindProperty("m_StreamingMipmaps");
            m_StreamingMipmapsPriority = serializedObject.FindProperty("m_StreamingMipmapsPriority");
            m_sRGBTexture = serializedObject.FindProperty("m_sRGBTexture");
            m_EnableMipMap = serializedObject.FindProperty("m_EnableMipMap");
            m_MipMapMode = serializedObject.FindProperty("m_MipMapMode");
            m_FadeOut = serializedObject.FindProperty("m_FadeOut");
            m_MipMapFadeDistanceStart = serializedObject.FindProperty("m_MipMapFadeDistanceStart");
            m_MipMapFadeDistanceEnd = serializedObject.FindProperty("m_MipMapFadeDistanceEnd");

            m_Aniso = serializedObject.FindProperty("m_TextureSettings.m_Aniso");
            m_FilterMode = serializedObject.FindProperty("m_TextureSettings.m_FilterMode");
            m_WrapU = serializedObject.FindProperty("m_TextureSettings.m_WrapU");
            m_WrapV = serializedObject.FindProperty("m_TextureSettings.m_WrapV");
            m_WrapW = serializedObject.FindProperty("m_TextureSettings.m_WrapW");

            m_CubemapConvolution = serializedObject.FindProperty("m_CubemapConvolution");

            m_SpriteMode = serializedObject.FindProperty("m_SpriteMode");
            m_SpritePackingTag = serializedObject.FindProperty("m_SpritePackingTag");
            m_SpritePixelsToUnits = serializedObject.FindProperty("m_SpritePixelsToUnits");
            m_SpriteExtrude = serializedObject.FindProperty("m_SpriteExtrude");
            m_SpriteMeshType = serializedObject.FindProperty("m_SpriteMeshType");
            m_Alignment = serializedObject.FindProperty("m_Alignment");
            m_SpritePivot = serializedObject.FindProperty("m_SpritePivot");
            m_SpriteGenerateFallbackPhysicsShape = serializedObject.FindProperty("m_SpriteGenerateFallbackPhysicsShape");

            m_AlphaIsTransparency = serializedObject.FindProperty("m_AlphaIsTransparency");
            m_IgnorePngGamma = serializedObject.FindProperty("m_IgnorePngGamma");
            m_PSDRemoveMatte = serializedObject.FindProperty("m_PSDRemoveMatte");

            m_TextureType = serializedObject.FindProperty("m_TextureType");
            m_TextureShape = serializedObject.FindProperty("m_TextureShape");

            m_SingleChannelComponent = serializedObject.FindProperty("m_SingleChannelComponent");

            m_FlipbookRows = serializedObject.FindProperty("m_FlipbookRows");
            m_FlipbookColumns = serializedObject.FindProperty("m_FlipbookColumns");

            m_TextureTypes = new List<TextureImporterType>();
            foreach (var o in targets)
            {
                var targetObject = (TextureImporter)o;
                m_TextureTypes.Add(targetObject.textureType);
            }
        }

        void InitializeGUI()
        {
            // This is where we decide what GUI elements are displayed depending on the texture type.
            // TODO: Maybe complement the bitfield with a list to add a concept of order in the display. Not sure if necessary...
            TextureImporterShape shapeCapsAll =
                TextureImporterShape.Texture2D |
                TextureImporterShape.TextureCube |
                TextureImporterShape.Texture2DArray |
                TextureImporterShape.Texture3D;

            m_TextureTypeGUIElements[(int)TextureImporterType.Default]      = new TextureInspectorTypeGUIProperties(TextureInspectorGUIElement.ColorSpace | TextureInspectorGUIElement.AlphaHandling | TextureInspectorGUIElement.PngGamma | TextureInspectorGUIElement.CubeMapConvolution | TextureInspectorGUIElement.CubeMapping | TextureInspectorGUIElement.ElementsAtlas,
                TextureInspectorGUIElement.PowerOfTwo | TextureInspectorGUIElement.Readable | TextureInspectorGUIElement.MipMaps
                | TextureInspectorGUIElement.StreamingMipmaps
                , shapeCapsAll);
            m_TextureTypeGUIElements[(int)TextureImporterType.NormalMap]    = new TextureInspectorTypeGUIProperties(TextureInspectorGUIElement.NormalMap | TextureInspectorGUIElement.PngGamma | TextureInspectorGUIElement.CubeMapping | TextureInspectorGUIElement.ElementsAtlas,
                TextureInspectorGUIElement.PowerOfTwo | TextureInspectorGUIElement.Readable | TextureInspectorGUIElement.MipMaps
                | TextureInspectorGUIElement.StreamingMipmaps
                , shapeCapsAll);
            m_TextureTypeGUIElements[(int)TextureImporterType.Sprite]       = new TextureInspectorTypeGUIProperties(TextureInspectorGUIElement.Sprite,
                TextureInspectorGUIElement.Readable | TextureInspectorGUIElement.AlphaHandling | TextureInspectorGUIElement.PngGamma | TextureInspectorGUIElement.MipMaps | TextureInspectorGUIElement.ColorSpace,
                TextureImporterShape.Texture2D);
            m_TextureTypeGUIElements[(int)TextureImporterType.Cookie]       = new TextureInspectorTypeGUIProperties(TextureInspectorGUIElement.Cookie | TextureInspectorGUIElement.AlphaHandling | TextureInspectorGUIElement.PngGamma | TextureInspectorGUIElement.CubeMapping,
                TextureInspectorGUIElement.PowerOfTwo | TextureInspectorGUIElement.Readable | TextureInspectorGUIElement.MipMaps,
                TextureImporterShape.Texture2D | TextureImporterShape.TextureCube);
            m_TextureTypeGUIElements[(int)TextureImporterType.SingleChannel] = new TextureInspectorTypeGUIProperties(TextureInspectorGUIElement.AlphaHandling | TextureInspectorGUIElement.PngGamma | TextureInspectorGUIElement.SingleChannelComponent | TextureInspectorGUIElement.CubeMapping | TextureInspectorGUIElement.ElementsAtlas,
                TextureInspectorGUIElement.PowerOfTwo | TextureInspectorGUIElement.Readable | TextureInspectorGUIElement.MipMaps
                | TextureInspectorGUIElement.StreamingMipmaps
                , shapeCapsAll);
            m_TextureTypeGUIElements[(int)TextureImporterType.GUI]          = new TextureInspectorTypeGUIProperties(0,
                TextureInspectorGUIElement.AlphaHandling | TextureInspectorGUIElement.PngGamma | TextureInspectorGUIElement.PowerOfTwo | TextureInspectorGUIElement.Readable | TextureInspectorGUIElement.MipMaps,
                TextureImporterShape.Texture2D);
            m_TextureTypeGUIElements[(int)TextureImporterType.Cursor]       = new TextureInspectorTypeGUIProperties(0,
                TextureInspectorGUIElement.AlphaHandling | TextureInspectorGUIElement.PngGamma | TextureInspectorGUIElement.PowerOfTwo | TextureInspectorGUIElement.Readable | TextureInspectorGUIElement.MipMaps,
                TextureImporterShape.Texture2D);
            m_TextureTypeGUIElements[(int)TextureImporterType.Lightmap]     = new TextureInspectorTypeGUIProperties(0,
                TextureInspectorGUIElement.PowerOfTwo | TextureInspectorGUIElement.Readable | TextureInspectorGUIElement.PngGamma | TextureInspectorGUIElement.MipMaps
                | TextureInspectorGUIElement.StreamingMipmaps
                , TextureImporterShape.Texture2D);

            m_GUIElementMethods.Clear();
            m_GUIElementMethods.Add(TextureInspectorGUIElement.PowerOfTwo, this.POTScaleGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.Readable, this.ReadableGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.StreamingMipmaps, this.StreamingMipmapsGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.ColorSpace, this.ColorSpaceGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.AlphaHandling, this.AlphaHandlingGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.PngGamma, this.PngGammaGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.MipMaps, this.MipMapGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.NormalMap, this.BumpGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.Sprite, this.SpriteGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.Cookie, this.CookieGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.CubeMapping, this.CubemapMappingGUI);
            m_GUIElementMethods.Add(TextureInspectorGUIElement.ElementsAtlas, this.ElementsAtlasGui);

            // This list dictates the order in which the GUI Elements are displayed.
            // It could be different for each TextureImporterType but let's keep it simple for now.
            m_GUIElementsDisplayOrder.Clear();
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.ElementsAtlas);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.CubeMapping);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.CubeMapConvolution);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.Cookie);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.ColorSpace);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.AlphaHandling);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.PngGamma);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.SingleChannelComponent);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.NormalMap);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.Sprite);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.PowerOfTwo);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.Readable);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.StreamingMipmaps);
            m_GUIElementsDisplayOrder.Add(TextureInspectorGUIElement.MipMaps);

            UnityEngine.Debug.Assert(m_GUIElementsDisplayOrder.Count == (Enum.GetValues(typeof(TextureInspectorGUIElement)).Length - 1), "Some GUIElement are not present in the list."); // -1 because TextureInspectorGUIElement.None
        }

        public override void OnEnable()
        {
            base.OnEnable();

            s_DefaultPlatformName = TextureImporter.defaultPlatformName; // Can't be called everywhere so we save it here for later use.

            m_ShowAdvanced = EditorPrefs.GetBool("TextureImporterShowAdvanced", m_ShowAdvanced);

            CacheSerializedProperties();

            BuildTargetList();

            m_ShowBumpGenerationSettings.valueChanged.AddListener(Repaint);
            m_ShowBumpGenerationSettings.value = m_ConvertToNormalMap.intValue > 0;
            m_ShowCubeMapSettings.valueChanged.AddListener(Repaint);
            m_ShowCubeMapSettings.value = (TextureImporterShape)m_TextureShape.intValue == TextureImporterShape.TextureCube;
            m_ShowElementsAtlasSettings.valueChanged.AddListener(Repaint);
            m_ShowElementsAtlasSettings.value = (TextureImporterShape)m_TextureShape.intValue == TextureImporterShape.Texture2DArray || (TextureImporterShape)m_TextureShape.intValue == TextureImporterShape.Texture3D;
            //@TODO change to use spriteMode enum when available
            m_ShowGenericSpriteSettings.valueChanged.AddListener(Repaint);
            m_ShowGenericSpriteSettings.value = m_SpriteMode.intValue != 0;
            m_ShowSpriteMeshTypeOption.valueChanged.AddListener(Repaint);
            m_ShowSpriteMeshTypeOption.value = ShouldShowSpriteMeshTypeOption();
            m_ShowMipMapSettings.valueChanged.AddListener(Repaint);
            m_ShowMipMapSettings.value = m_EnableMipMap.boolValue && (TextureImporterShape)m_TextureShape.intValue != TextureImporterShape.Texture3D;

            InitializeGUI();

            var importer = target as TextureImporter;
            if (importer == null)
                return;

            importer.GetWidthAndHeight(ref m_TextureWidth, ref m_TextureHeight);
            m_IsPOT = IsPowerOfTwo(m_TextureWidth) && IsPowerOfTwo(m_TextureHeight);
        }

        void SetSerializedPropertySettings(TextureImporterSettings settings)
        {
            m_AlphaSource.intValue = (int)settings.alphaSource;
            m_ConvertToNormalMap.intValue = settings.convertToNormalMap ? 1 : 0;
            m_HeightScale.floatValue = settings.heightmapScale;
            m_NormalMapFilter.intValue = (int)settings.normalMapFilter;
            m_GenerateCubemap.intValue = (int)settings.generateCubemap;
            m_CubemapConvolution.intValue = (int)settings.cubemapConvolution;
            m_SeamlessCubemap.intValue = settings.seamlessCubemap ? 1 : 0;
            m_BorderMipMap.intValue = settings.borderMipmap ? 1 : 0;
            m_MipMapsPreserveCoverage.intValue = settings.mipMapsPreserveCoverage ? 1 : 0;
            m_AlphaTestReferenceValue.floatValue = settings.alphaTestReferenceValue;
            m_NPOTScale.intValue = (int)settings.npotScale;
            m_IsReadable.intValue = settings.readable ? 1 : 0;
            m_StreamingMipmaps.intValue = settings.streamingMipmaps ? 1 : 0;
            m_StreamingMipmapsPriority.intValue = settings.streamingMipmapsPriority;
            m_EnableMipMap.intValue = settings.mipmapEnabled ? 1 : 0;
            m_sRGBTexture.intValue = settings.sRGBTexture ? 1 : 0;
            m_MipMapMode.intValue = (int)settings.mipmapFilter;
            m_FadeOut.intValue = settings.fadeOut ? 1 : 0;
            m_MipMapFadeDistanceStart.intValue = settings.mipmapFadeDistanceStart;
            m_MipMapFadeDistanceEnd.intValue = settings.mipmapFadeDistanceEnd;

            m_SpriteMode.intValue = settings.spriteMode;
            m_SpritePixelsToUnits.floatValue = settings.spritePixelsPerUnit;
            m_SpriteExtrude.intValue = (int)settings.spriteExtrude;
            m_SpriteMeshType.intValue = (int)settings.spriteMeshType;
            m_Alignment.intValue = settings.spriteAlignment;
            m_SpriteGenerateFallbackPhysicsShape.intValue = settings.spriteGenerateFallbackPhysicsShape ? 1 : 0;

            m_WrapU.intValue = (int)settings.wrapMode;
            m_WrapV.intValue = (int)settings.wrapMode;
            m_FilterMode.intValue = (int)settings.filterMode;
            m_Aniso.intValue = settings.aniso;

            m_AlphaIsTransparency.intValue = settings.alphaIsTransparency ? 1 : 0;
            m_IgnorePngGamma.intValue = settings.ignorePngGamma ? 1 : 0;

            m_TextureType.intValue = (int)settings.textureType;
            m_TextureShape.intValue = (int)settings.textureShape;

            m_SingleChannelComponent.intValue = (int)settings.singleChannelComponent;

            m_FlipbookRows.intValue = settings.flipbookRows;
            m_FlipbookColumns.intValue = settings.flipbookColumns;
        }

        internal TextureImporterSettings GetSerializedPropertySettings()
        {
            return GetSerializedPropertySettings(new TextureImporterSettings());
        }

        internal TextureImporterSettings GetSerializedPropertySettings(TextureImporterSettings settings)
        {
            if (!m_AlphaSource.hasMultipleDifferentValues)
                settings.alphaSource = (TextureImporterAlphaSource)m_AlphaSource.intValue;

            if (!m_ConvertToNormalMap.hasMultipleDifferentValues)
                settings.convertToNormalMap = m_ConvertToNormalMap.intValue > 0;

            if (!m_HeightScale.hasMultipleDifferentValues)
                settings.heightmapScale = m_HeightScale.floatValue;

            if (!m_NormalMapFilter.hasMultipleDifferentValues)
                settings.normalMapFilter = (TextureImporterNormalFilter)m_NormalMapFilter.intValue;

            if (!m_GenerateCubemap.hasMultipleDifferentValues)
                settings.generateCubemap = (TextureImporterGenerateCubemap)m_GenerateCubemap.intValue;

            if (!m_CubemapConvolution.hasMultipleDifferentValues)
                settings.cubemapConvolution = (TextureImporterCubemapConvolution)m_CubemapConvolution.intValue;

            if (!m_SeamlessCubemap.hasMultipleDifferentValues)
                settings.seamlessCubemap = m_SeamlessCubemap.intValue > 0;

            if (!m_BorderMipMap.hasMultipleDifferentValues)
                settings.borderMipmap = m_BorderMipMap.intValue > 0;

            if (!m_MipMapsPreserveCoverage.hasMultipleDifferentValues)
                settings.mipMapsPreserveCoverage = m_MipMapsPreserveCoverage.intValue > 0;

            if (!m_AlphaTestReferenceValue.hasMultipleDifferentValues)
                settings.alphaTestReferenceValue = m_AlphaTestReferenceValue.floatValue;

            if (!m_NPOTScale.hasMultipleDifferentValues)
                settings.npotScale = (TextureImporterNPOTScale)m_NPOTScale.intValue;

            if (!m_IsReadable.hasMultipleDifferentValues)
                settings.readable = m_IsReadable.intValue > 0;

            if (!m_StreamingMipmaps.hasMultipleDifferentValues)
                settings.streamingMipmaps = m_StreamingMipmaps.intValue > 0;
            if (!m_StreamingMipmapsPriority.hasMultipleDifferentValues)
                settings.streamingMipmapsPriority = m_StreamingMipmapsPriority.intValue;


            if (!m_sRGBTexture.hasMultipleDifferentValues)
                settings.sRGBTexture = m_sRGBTexture.intValue > 0;

            if (!m_EnableMipMap.hasMultipleDifferentValues)
                settings.mipmapEnabled = m_EnableMipMap.intValue > 0;

            if (!m_MipMapMode.hasMultipleDifferentValues)
                settings.mipmapFilter = (TextureImporterMipFilter)m_MipMapMode.intValue;

            if (!m_FadeOut.hasMultipleDifferentValues)
                settings.fadeOut = m_FadeOut.intValue > 0;

            if (!m_MipMapFadeDistanceStart.hasMultipleDifferentValues)
                settings.mipmapFadeDistanceStart = m_MipMapFadeDistanceStart.intValue;

            if (!m_MipMapFadeDistanceEnd.hasMultipleDifferentValues)
                settings.mipmapFadeDistanceEnd = m_MipMapFadeDistanceEnd.intValue;

            if (!m_SpriteMode.hasMultipleDifferentValues)
                settings.spriteMode = m_SpriteMode.intValue;

            if (!m_SpritePixelsToUnits.hasMultipleDifferentValues)
                settings.spritePixelsPerUnit = m_SpritePixelsToUnits.floatValue;

            if (!m_SpriteExtrude.hasMultipleDifferentValues)
                settings.spriteExtrude = (uint)m_SpriteExtrude.intValue;

            if (!m_SpriteMeshType.hasMultipleDifferentValues)
                settings.spriteMeshType = (SpriteMeshType)m_SpriteMeshType.intValue;

            if (!m_Alignment.hasMultipleDifferentValues)
                settings.spriteAlignment = m_Alignment.intValue;

            if (!m_SpritePivot.hasMultipleDifferentValues)
                settings.spritePivot = m_SpritePivot.vector2Value;

            if (!m_SpriteGenerateFallbackPhysicsShape.hasMultipleDifferentValues)
                settings.spriteGenerateFallbackPhysicsShape = m_SpriteGenerateFallbackPhysicsShape.intValue > 0;

            if (!m_WrapU.hasMultipleDifferentValues)
                settings.wrapModeU = (TextureWrapMode)m_WrapU.intValue;
            if (!m_WrapV.hasMultipleDifferentValues)
                settings.wrapModeU = (TextureWrapMode)m_WrapV.intValue;
            if (!m_WrapW.hasMultipleDifferentValues)
                settings.wrapModeU = (TextureWrapMode)m_WrapW.intValue;

            if (!m_FilterMode.hasMultipleDifferentValues)
                settings.filterMode = (FilterMode)m_FilterMode.intValue;

            if (!m_Aniso.hasMultipleDifferentValues)
                settings.aniso = m_Aniso.intValue;


            if (!m_AlphaIsTransparency.hasMultipleDifferentValues)
                settings.alphaIsTransparency = m_AlphaIsTransparency.intValue > 0;

            if (!m_TextureType.hasMultipleDifferentValues)
                settings.textureType = (TextureImporterType)m_TextureType.intValue;

            if (!m_TextureShape.hasMultipleDifferentValues)
                settings.textureShape = (TextureImporterShape)m_TextureShape.intValue;

            if (!m_SingleChannelComponent.hasMultipleDifferentValues)
                settings.singleChannelComponent = (TextureImporterSingleChannelComponent)m_SingleChannelComponent.intValue;

            if (!m_IgnorePngGamma.hasMultipleDifferentValues)
                settings.ignorePngGamma = m_IgnorePngGamma.intValue > 0;

            if (!m_FlipbookRows.hasMultipleDifferentValues)
                settings.flipbookRows = m_FlipbookRows.intValue;
            if (!m_FlipbookColumns.hasMultipleDifferentValues)
                settings.flipbookColumns = m_FlipbookColumns.intValue;

            return settings;
        }

        void CookieGUI(TextureInspectorGUIElement guiElements)
        {
            EditorGUI.BeginChangeCheck();
            CookieMode cm;
            if (m_BorderMipMap.intValue > 0)
                cm = CookieMode.Spot;
            else if (m_TextureShape.intValue == (int)TextureImporterShape.TextureCube)
                cm = CookieMode.Point;
            else
                cm = CookieMode.Directional;

            cm = (CookieMode)EditorGUILayout.Popup(s_Styles.cookieType, (int)cm, s_Styles.cookieOptions);
            if (EditorGUI.EndChangeCheck())
                SetCookieMode(cm);

            if (cm == CookieMode.Point)
            {
                m_TextureShape.intValue = (int)TextureImporterShape.TextureCube;
            }
            else
            {
                m_TextureShape.intValue = (int)TextureImporterShape.Texture2D;
            }
        }

        void CubemapMappingGUI(TextureInspectorGUIElement guiElements)
        {
            m_ShowCubeMapSettings.target = (TextureImporterShape)m_TextureShape.intValue == TextureImporterShape.TextureCube;
            if (EditorGUILayout.BeginFadeGroup(m_ShowCubeMapSettings.faded))
            {
                if ((TextureImporterShape)m_TextureShape.intValue == TextureImporterShape.TextureCube)
                {
                    using (new EditorGUI.DisabledScope(!m_IsPOT && m_NPOTScale.intValue == (int)TextureImporterNPOTScale.None))
                    {
                        EditorGUI.showMixedValue = m_GenerateCubemap.hasMultipleDifferentValues || m_SeamlessCubemap.hasMultipleDifferentValues;

                        EditorGUI.BeginChangeCheck();

                        int value = EditorGUILayout.IntPopup(s_Styles.cubemap, m_GenerateCubemap.intValue, s_Styles.cubemapOptions, s_Styles.cubemapValues2);
                        if (EditorGUI.EndChangeCheck())
                            m_GenerateCubemap.intValue = value;

                        EditorGUI.indentLevel++;

                        // Convolution
                        if (ShouldDisplayGUIElement(guiElements, TextureInspectorGUIElement.CubeMapConvolution))
                        {
                            EditorGUILayout.IntPopup(m_CubemapConvolution,
                                s_Styles.cubemapConvolutionOptions,
                                s_Styles.cubemapConvolutionValues,
                                s_Styles.cubemapConvolution);
                        }

                        ToggleFromInt(m_SeamlessCubemap, s_Styles.seamlessCubemap);

                        EditorGUI.indentLevel--;
                        EditorGUI.showMixedValue = false;
                        EditorGUILayout.Space();
                    }
                }
            }
            EditorGUILayout.EndFadeGroup();
        }

        void ElementsAtlasGui(TextureInspectorGUIElement guiElements)
        {
            var shape = (TextureImporterShape)m_TextureShape.intValue;
            var isLayerShape = shape == TextureImporterShape.Texture2DArray || shape == TextureImporterShape.Texture3D;
            m_ShowElementsAtlasSettings.target = isLayerShape;
            if (EditorGUILayout.BeginFadeGroup(m_ShowElementsAtlasSettings.faded) && isLayerShape)
            {
                EditorGUI.indentLevel++;
                EditorGUI.BeginChangeCheck();
                EditorGUILayout.PropertyField(m_FlipbookColumns, s_Styles.flipbookColumns);
                if (EditorGUI.EndChangeCheck())
                {
                    var val = m_FlipbookColumns.intValue;
                    val = Mathf.Clamp(val, 1, m_TextureWidth);
                    m_FlipbookColumns.intValue = val;
                }
                if (m_TextureWidth % m_FlipbookColumns.intValue != 0)
                    EditorGUILayout.HelpBox($"Image width {m_TextureWidth} does not divide into {m_FlipbookColumns.intValue} columns exactly", MessageType.Warning, true);

                EditorGUI.BeginChangeCheck();
                EditorGUILayout.PropertyField(m_FlipbookRows, s_Styles.flipbookRows);
                if (EditorGUI.EndChangeCheck())
                {
                    var val = m_FlipbookRows.intValue;
                    val = Mathf.Clamp(val, 1, m_TextureHeight);
                    m_FlipbookRows.intValue = val;
                }
                if (m_TextureHeight % m_FlipbookRows.intValue != 0)
                    EditorGUILayout.HelpBox($"Image height {m_TextureHeight} does not divide into {m_FlipbookRows.intValue} rows exactly", MessageType.Warning, true);
                EditorGUI.indentLevel--;
            }
            EditorGUILayout.EndFadeGroup();
        }

        void ColorSpaceGUI(TextureInspectorGUIElement guiElements)
        {
            ToggleFromInt(m_sRGBTexture, s_Styles.sRGBTexture);
        }

        void POTScaleGUI(TextureInspectorGUIElement guiElements)
        {
            using (new EditorGUI.DisabledScope(m_IsPOT))
            {
                EnumPopup(m_NPOTScale, typeof(TextureImporterNPOTScale), s_Styles.npot);
            }
        }

        void ReadableGUI(TextureInspectorGUIElement guiElements)
        {
            bool enabled = CanReadWrite();
            using (new EditorGUI.DisabledScope(!enabled))
            {
                ToggleFromInt(m_IsReadable, s_Styles.readWrite);
                if (!enabled && m_IsReadable.intValue > 0)
                {
                    EditorGUILayout.HelpBox(s_Styles.readWriteWarning.text, MessageType.Warning, true);
                }
            }
        }

        void StreamingMipmapsGUI(TextureInspectorGUIElement guiElements)
        {
            // only 2D/Cubemap shapes support streaming mipmaps right now
            var shape = (TextureImporterShape)m_TextureShape.intValue;
            var shapeHasStreaming = shape == TextureImporterShape.Texture2D || shape == TextureImporterShape.TextureCube;
            if (!shapeHasStreaming)
                return;

            ToggleFromInt(m_StreamingMipmaps, s_Styles.streamingMipmaps);
            if (m_StreamingMipmaps.boolValue && !m_StreamingMipmaps.hasMultipleDifferentValues)
            {
                EditorGUI.indentLevel++;
                EditorGUILayout.PropertyField(m_StreamingMipmapsPriority, s_Styles.streamingMipmapsPriority);
                EditorGUI.indentLevel--;
            }
        }



        void AlphaHandlingGUI(TextureInspectorGUIElement guiElements)
        {
            bool showAlphaSource = true;
            if (ShouldDisplayGUIElement(guiElements, TextureInspectorGUIElement.SingleChannelComponent))
            {
                EditorGUI.showMixedValue = m_SingleChannelComponent.hasMultipleDifferentValues;
                EditorGUI.BeginChangeCheck();
                int newSingleChannelComponent = EditorGUILayout.IntPopup(s_Styles.singleChannelComponent, m_SingleChannelComponent.intValue, s_Styles.singleChannelComponentOptions, s_Styles.singleChannelComponentValues);

                EditorGUI.showMixedValue = false;
                if (EditorGUI.EndChangeCheck())
                {
                    m_SingleChannelComponent.intValue = newSingleChannelComponent;
                }

                showAlphaSource = (m_SingleChannelComponent.intValue == (int)TextureImporterSingleChannelComponent.Alpha);
            }

            if (showAlphaSource)
            {
                int countWithAlpha = 0;
                int countHDR = 0;

                bool success = CountImportersWithAlpha(targets, out countWithAlpha);
                success = success && CountImportersWithHDR(targets, out countHDR);

                EditorGUI.showMixedValue = m_AlphaSource.hasMultipleDifferentValues;
                EditorGUI.BeginChangeCheck();
                int newAlphaUsage = EditorGUILayout.IntPopup(s_Styles.alphaSource, m_AlphaSource.intValue, s_Styles.alphaSourceOptions, s_Styles.alphaSourceValues);

                EditorGUI.showMixedValue = false;
                if (EditorGUI.EndChangeCheck())
                {
                    m_AlphaSource.intValue = newAlphaUsage;
                }

                bool showAlphaIsTransparency = success && (TextureImporterAlphaSource)m_AlphaSource.intValue != TextureImporterAlphaSource.None && countHDR == 0; // AlphaIsTransparency is not properly implemented for HDR texture yet.
                using (new EditorGUI.DisabledScope(assetTarget != null && !showAlphaIsTransparency))
                {
                    ToggleFromInt(m_AlphaIsTransparency, s_Styles.alphaIsTransparency);
                }
            }

            // This is pure backward compatibility codepath. It can be removed when we decide that the time has come
            TextureImporter importer = target as TextureImporter;
            if (importer.ShouldShowRemoveMatteOption())
            {
                EditorGUILayout.PropertyField(m_PSDRemoveMatte, s_Styles.psdRemoveMatte);
                if (m_PSDRemoveMatte.boolValue)
                {
                    GUILayout.BeginVertical();
                    EditorGUILayout.HelpBox(s_Styles.psdRemoveMatteInfo.text, MessageType.Info, true);
                    if (EditorGUILayout.LinkLabel(s_Styles.psdRemoveMatteURLButton))
                        Application.OpenURL(s_Styles.psdRemoveMatteURL);
                    GUILayout.EndVertical();
                }
            }
        }

        private bool ShouldShowSpriteMeshTypeOption()
        {
            return m_SpriteMode.intValue != (int)SpriteImportMode.Polygon && !m_SpriteMode.hasMultipleDifferentValues;
        }

        private void SpriteGUI(TextureInspectorGUIElement guiElements)
        {
            // Sprite mode selection
            EditorGUI.BeginChangeCheck();

            EditorGUILayout.IntPopup(m_SpriteMode, s_Styles.spriteModeOptions, new[] { 1, 2, 3 }, s_Styles.spriteMode);

            // Ensure that PropertyField focus will be cleared when we change spriteMode.
            if (EditorGUI.EndChangeCheck())
            {
                GUIUtility.keyboardControl = 0;
            }

            EditorGUI.indentLevel++;

            // Show generic attributes
            m_ShowGenericSpriteSettings.target = (m_SpriteMode.intValue != 0);
            if (EditorGUILayout.BeginFadeGroup(m_ShowGenericSpriteSettings.faded))
            {
                using (new EditorGUI.DisabledScope(true))
                    EditorGUILayout.PropertyField(m_SpritePackingTag, s_Styles.spritePackingTag);

                EditorGUILayout.PropertyField(m_SpritePixelsToUnits, s_Styles.spritePixelsPerUnit);

                m_ShowSpriteMeshTypeOption.target = ShouldShowSpriteMeshTypeOption();
                if (EditorGUILayout.BeginFadeGroup(m_ShowSpriteMeshTypeOption.faded))
                {
                    EditorGUILayout.IntPopup(m_SpriteMeshType, s_Styles.spriteMeshTypeOptions, new[] { 0, 1 }, s_Styles.spriteMeshType);
                }
                EditorGUILayout.EndFadeGroup();

                EditorGUILayout.IntSlider(m_SpriteExtrude, 0, 32, s_Styles.spriteExtrude);

                if (m_SpriteMode.intValue == (int)SpriteImportMode.Single)
                {
                    EditorGUILayout.Popup(m_Alignment, s_Styles.spriteAlignmentOptions, s_Styles.spriteAlignment);

                    if (m_Alignment.intValue == (int)SpriteAlignment.Custom)
                    {
                        GUILayout.BeginHorizontal();
                        EditorGUILayout.PropertyField(m_SpritePivot, m_EmptyContent);
                        GUILayout.EndHorizontal();
                    }
                }

                if (m_SpriteMode.intValue != (int)SpriteImportMode.Polygon)
                    ToggleFromInt(m_SpriteGenerateFallbackPhysicsShape, s_Styles.spriteGenerateFallbackPhysicsShape);

                using (new EditorGUI.DisabledScope(targets.Length != 1))
                {
                    GUILayout.BeginHorizontal();

                    GUILayout.FlexibleSpace();
                    if (GUILayout.Button("Sprite Editor"))
                    {
                        if (HasModified())
                        {
                            // To ensure Sprite Editor Window to have the latest texture import setting,
                            // We must applied those modified values first.
                            string dialogText = "Unapplied import settings for \'" + ((TextureImporter)target).assetPath + "\'.\n";
                            dialogText += "Apply and continue to sprite editor or cancel.";
                            if (EditorUtility.DisplayDialog("Unapplied import settings", dialogText, "Apply", "Cancel"))
                            {
                                ApplyAndImport();
                                SpriteUtilityWindow.ShowSpriteEditorWindow(this.assetTarget);

                                // We reimported the asset which destroyed the editor, so we can't keep running the UI here.
                                GUIUtility.ExitGUI();
                            }
                        }
                        else
                        {
                            SpriteUtilityWindow.ShowSpriteEditorWindow(this.assetTarget);
                        }
                    }
                    GUILayout.EndHorizontal();
                }
            }
            EditorGUILayout.EndFadeGroup();

            EditorGUI.indentLevel--;
        }

        void MipMapGUI(TextureInspectorGUIElement guiElements)
        {
            ToggleFromInt(m_EnableMipMap, s_Styles.generateMipMaps);

            m_ShowMipMapSettings.target =
                m_EnableMipMap.boolValue &&
                !m_EnableMipMap.hasMultipleDifferentValues &&
                // 3D textures don't use any of mipmap settings, just the "yes/no" flag
                (TextureImporterShape)m_TextureShape.intValue != TextureImporterShape.Texture3D;

            if (EditorGUILayout.BeginFadeGroup(m_ShowMipMapSettings.faded))
            {
                EditorGUI.indentLevel++;
                ToggleFromInt(m_BorderMipMap, s_Styles.borderMipMaps);
                EditorGUILayout.Popup(m_MipMapMode, s_Styles.mipMapFilterOptions, s_Styles.mipMapFilter);

                ToggleFromInt(m_MipMapsPreserveCoverage, s_Styles.mipMapsPreserveCoverage);
                if (m_MipMapsPreserveCoverage.intValue != 0 && !m_MipMapsPreserveCoverage.hasMultipleDifferentValues)
                {
                    EditorGUI.indentLevel++;
                    EditorGUILayout.PropertyField(m_AlphaTestReferenceValue, s_Styles.alphaTestReferenceValue);
                    EditorGUI.indentLevel--;
                }

                // Mipmap fadeout
                ToggleFromInt(m_FadeOut, s_Styles.mipmapFadeOutToggle);
                if (m_FadeOut.intValue > 0)
                {
                    EditorGUI.indentLevel++;
                    EditorGUI.BeginChangeCheck();
                    float min = m_MipMapFadeDistanceStart.intValue;
                    float max = m_MipMapFadeDistanceEnd.intValue;
                    EditorGUILayout.MinMaxSlider(s_Styles.mipmapFadeOut, ref min, ref max, 0, 10);
                    if (EditorGUI.EndChangeCheck())
                    {
                        m_MipMapFadeDistanceStart.intValue = Mathf.RoundToInt(min);
                        m_MipMapFadeDistanceEnd.intValue = Mathf.RoundToInt(max);
                    }
                    EditorGUI.indentLevel--;
                }
                EditorGUI.indentLevel--;
            }
            EditorGUILayout.EndFadeGroup();
        }

        void PngGammaGUI(TextureInspectorGUIElement guiElements)
        {
            ToggleFromInt(m_IgnorePngGamma, s_Styles.ignorePngGamma);
        }

        void BumpGUI(TextureInspectorGUIElement guiElements)
        {
            EditorGUI.BeginChangeCheck();

            ToggleFromInt(m_ConvertToNormalMap, s_Styles.generateFromBump);
            m_ShowBumpGenerationSettings.target = m_ConvertToNormalMap.intValue > 0;
            if (EditorGUILayout.BeginFadeGroup(m_ShowBumpGenerationSettings.faded))
            {
                EditorGUI.indentLevel++;
                EditorGUILayout.Slider(m_HeightScale, 0.0F, 0.3F, s_Styles.bumpiness);
                EditorGUILayout.Popup(m_NormalMapFilter, s_Styles.bumpFilteringOptions, s_Styles.bumpFiltering);
                EditorGUI.indentLevel--;
            }
            EditorGUILayout.EndFadeGroup();

            if (EditorGUI.EndChangeCheck())
                BaseTextureImportPlatformSettings.SyncPlatformSettings(m_PlatformSettings.ConvertAll<BaseTextureImportPlatformSettings>(x => x as BaseTextureImportPlatformSettings));
        }

        bool m_ShowPerAxisWrapModes = false;

        void TextureSettingsGUI()
        {
            EditorGUI.BeginChangeCheck();

            // Wrap mode
            // NOTE: once we get ability to have 3D/Volume texture shapes, should pass true for isVolume based on m_TextureShape
            bool isVolume = false;
            TextureInspector.WrapModePopup(m_WrapU, m_WrapV, m_WrapW, isVolume, ref m_ShowPerAxisWrapModes, assetTarget == null);


            // Display warning about repeat wrap mode on restricted npot emulation
            if (m_NPOTScale.intValue == (int)TextureImporterNPOTScale.None &&
                (m_WrapU.intValue == (int)TextureWrapMode.Repeat || m_WrapV.intValue == (int)TextureWrapMode.Repeat) &&
                !ShaderUtil.hardwareSupportsFullNPOT)
            {
                bool displayWarning = false;
                foreach (var target in targets)
                {
                    int w = -1, h = -1;
                    var imp = (TextureImporter)target;
                    imp.GetWidthAndHeight(ref w, ref h);
                    if (!Mathf.IsPowerOfTwo(w) || !Mathf.IsPowerOfTwo(h))
                    {
                        displayWarning = true;
                        break;
                    }
                }

                if (displayWarning)
                {
                    GUIContent c = EditorGUIUtility.TrTextContent("Graphics device doesn't support Repeat wrap mode on NPOT textures. Falling back to Clamp.");
                    EditorGUILayout.HelpBox(c.text, MessageType.Warning, true);
                }
            }

            // Filter mode
            EditorGUI.BeginChangeCheck();
            EditorGUI.showMixedValue = m_FilterMode.hasMultipleDifferentValues;
            FilterMode filter = (FilterMode)m_FilterMode.intValue;
            if ((int)filter == -1)
            {
                if (m_FadeOut.intValue > 0 || m_ConvertToNormalMap.intValue > 0)
                    filter = FilterMode.Trilinear;
                else
                    filter = FilterMode.Bilinear;
            }
            filter = (FilterMode)EditorGUILayout.IntPopup(s_Styles.filterMode, (int)filter, s_Styles.filterModeOptions, m_FilterModeOptions);
            EditorGUI.showMixedValue = false;
            if (EditorGUI.EndChangeCheck())
                m_FilterMode.intValue = (int)filter;

            // Aniso
            bool showAniso = (FilterMode)m_FilterMode.intValue != FilterMode.Point
                && m_EnableMipMap.intValue > 0
                && (TextureImporterShape)m_TextureShape.intValue != TextureImporterShape.TextureCube
                && (TextureImporterShape)m_TextureShape.intValue != TextureImporterShape.Texture2D;
            using (new EditorGUI.DisabledScope(!showAniso))
            {
                EditorGUI.BeginChangeCheck();
                EditorGUI.showMixedValue = m_Aniso.hasMultipleDifferentValues;
                int aniso = m_Aniso.intValue;
                if (aniso == -1)
                    aniso = 1;
                aniso = EditorGUILayout.IntSlider("Aniso Level", aniso, 0, 16);
                EditorGUI.showMixedValue = false;
                if (EditorGUI.EndChangeCheck())
                    m_Aniso.intValue = aniso;

                TextureInspector.DoAnisoGlobalSettingNote(aniso);
            }

            if (EditorGUI.EndChangeCheck())
                ApplySettingsToTexture();
        }

        public override void OnInspectorGUI()
        {
            serializedObject.Update();

            if (s_Styles == null)
                s_Styles = new Styles();

            bool wasEnabled = GUI.enabled;

            EditorGUILayout.Space();

            // Texture Usage
            EditorGUI.BeginChangeCheck();
            EditorGUI.showMixedValue = m_TextureType.hasMultipleDifferentValues;
            int newTextureType = EditorGUILayout.IntPopup(s_Styles.textureTypeTitle, m_TextureType.intValue, s_Styles.textureTypeOptions, s_Styles.textureTypeValues);
            EditorGUI.showMixedValue = false;
            // (case 857001) EndChangeCheck will return true even if the same value is selected.
            // Consequently the sprite will be reset to Single mode and looks very confusing to the user.
            if (EditorGUI.EndChangeCheck() && (m_TextureType.intValue != newTextureType))
            {
                // please note that in GetSerializedPropertySettings() we will init TextureImporterSettings from current state
                //   and at this point m_TextureType still has *old* value
                // meaning that we still need to change TextureImporterSettings textureType manually
                // NB we do these weird things partly because ApplyTextureType has early out
                // NB hence we want settings to have *old* textureType when calling it
                TextureImporterSettings settings = GetSerializedPropertySettings();
                settings.ApplyTextureType((TextureImporterType)newTextureType);
                settings.textureType = (TextureImporterType)newTextureType;
                m_TextureType.intValue = newTextureType;

                SetSerializedPropertySettings(settings);

                BaseTextureImportPlatformSettings.SyncPlatformSettings(m_PlatformSettings.ConvertAll<BaseTextureImportPlatformSettings>(x => x as BaseTextureImportPlatformSettings));
                ApplySettingsToTexture();
            }

            // Texture Shape
            int[] shapeArray = s_Styles.textureShapeValuesDictionnary[m_TextureTypeGUIElements[(int)newTextureType].shapeCaps];
            using (new EditorGUI.DisabledScope(shapeArray.Length == 1 || m_TextureType.intValue == (int)TextureImporterType.Cookie)) // Cookie is a special case because the cookie type drives the shape of the texture
            {
                EditorGUI.BeginChangeCheck();
                EditorGUI.showMixedValue = m_TextureShape.hasMultipleDifferentValues;
                int newTextureShape = EditorGUILayout.IntPopup(s_Styles.textureShape, m_TextureShape.intValue, s_Styles.textureShapeOptionsDictionnary[m_TextureTypeGUIElements[(int)newTextureType].shapeCaps], s_Styles.textureShapeValuesDictionnary[m_TextureTypeGUIElements[(int)newTextureType].shapeCaps]);
                EditorGUI.showMixedValue = false;
                if (EditorGUI.EndChangeCheck())
                    m_TextureShape.intValue = newTextureShape;
            }

            // Switching usage can lead to a subset of the current available shapes.
            if (Array.IndexOf(shapeArray, m_TextureShape.intValue) == -1)
            {
                m_TextureShape.intValue = shapeArray[0];
            }

            EditorGUILayout.Space();

            // Show advanced settings for texture types that have the same subset of advanced settings (rather than just those that are exactly the same type)
            bool showAdvanced = false;
            if (m_TextureType.hasMultipleDifferentValues)
            {
                showAdvanced = true;
                int iteratedTextureType = (int)m_TextureTypes[0];
                TextureInspectorGUIElement firstAdvancedElements = m_TextureTypeGUIElements[iteratedTextureType].advancedElements;
                for (int selectionIndex = 1; selectionIndex < m_TextureTypes.Count; selectionIndex++)
                {
                    iteratedTextureType = (int)m_TextureTypes[selectionIndex];
                    if (firstAdvancedElements != m_TextureTypeGUIElements[iteratedTextureType].advancedElements)
                    {
                        showAdvanced = false;
                        break;
                    }
                }
            }
            else
            {
                showAdvanced = true;
            }

            if (showAdvanced)
            {
                DoGUIElements(m_TextureTypeGUIElements[newTextureType].commonElements, m_GUIElementsDisplayOrder);
                if (m_TextureTypeGUIElements[newTextureType].advancedElements != 0)
                {
                    EditorGUILayout.Space();

                    m_ShowAdvanced = EditorGUILayout.Foldout(m_ShowAdvanced, s_Styles.showAdvanced, true);
                    if (m_ShowAdvanced)
                    {
                        EditorGUI.indentLevel++;
                        DoGUIElements(m_TextureTypeGUIElements[newTextureType].advancedElements, m_GUIElementsDisplayOrder);
                        EditorGUI.indentLevel--;
                    }
                }
            }

            EditorGUILayout.Space();

            // Filter mode, aniso, and wrap mode GUI
            TextureSettingsGUI();

            BaseTextureImportPlatformSettings.ShowPlatformSpecificSettings(m_PlatformSettings.ConvertAll<BaseTextureImportPlatformSettings>(x => x as BaseTextureImportPlatformSettings));

            serializedObject.ApplyModifiedProperties();

            ApplyRevertGUI();

            // screw this - after lots of retries i have no idea how to poll it only when we change related stuff
            UpdateImportWarning();
            if (!string.IsNullOrEmpty(m_ImportWarning))
                EditorGUILayout.HelpBox(m_ImportWarning, MessageType.Warning);

            GUI.enabled = wasEnabled;
        }

        bool ShouldDisplayGUIElement(TextureInspectorGUIElement guiElements, TextureInspectorGUIElement guiElement)
        {
            return ((guiElements & guiElement) == guiElement);
        }

        private void DoGUIElements(TextureInspectorGUIElement guiElements, List<TextureInspectorGUIElement> guiElementsDisplayOrder)
        {
            foreach (TextureInspectorGUIElement guiElement in guiElementsDisplayOrder)
            {
                if (ShouldDisplayGUIElement(guiElements, guiElement) && m_GUIElementMethods.ContainsKey(guiElement))
                {
                    m_GUIElementMethods[guiElement](guiElements);
                }
            }
        }

        void ApplySettingsToTexture()
        {
            foreach (AssetImporter importer in targets)
            {
                Texture tex = AssetDatabase.LoadMainAssetAtPath(importer.assetPath) as Texture;
                if (tex != null) // This can happen if the texture fails to import (for example, cube texture with non-PoT input).
                {
                    if (m_Aniso.intValue != -1)
                        TextureUtil.SetAnisoLevelNoDirty(tex, m_Aniso.intValue);
                    if (m_FilterMode.intValue != -1)
                        TextureUtil.SetFilterModeNoDirty(tex, (FilterMode)m_FilterMode.intValue);
                    if ((m_WrapU.intValue != -1 || m_WrapV.intValue != -1 || m_WrapW.intValue != -1) &&
                        !m_WrapU.hasMultipleDifferentValues && !m_WrapV.hasMultipleDifferentValues && !m_WrapW.hasMultipleDifferentValues)
                    {
                        TextureUtil.SetWrapModeNoDirty(tex, (TextureWrapMode)m_WrapU.intValue, (TextureWrapMode)m_WrapV.intValue, (TextureWrapMode)m_WrapW.intValue);
                    }
                }
            }

            SceneView.RepaintAll();
        }

        // Returns false if method fails to get info
        static bool CountImportersWithAlpha(Object[] importers, out int count)
        {
            // DoesSourceTextureHaveAlpha will throw exception on importer reset (593478).
            try
            {
                count = 0;
                foreach (Object t in importers)
                    if ((t as TextureImporter).DoesSourceTextureHaveAlpha())
                        count++;
                return true;
            }
            catch
            {
                count = importers.Length;
                return false;
            }
        }

        static bool CountImportersWithHDR(Object[] importers, out int count)
        {
            // DoesSourceTextureHaveAlpha will throw exception on importer reset (593478).
            try
            {
                count = 0;
                foreach (Object t in importers)
                    if ((t as TextureImporter).IsSourceTextureHDR())
                        count++;
                return true;
            }
            catch
            {
                count = importers.Length;
                return false;
            }
        }

        void SetCookieMode(CookieMode cm)
        {
            switch (cm)
            {
                case CookieMode.Spot:
                    m_BorderMipMap.intValue = 1;
                    m_WrapU.intValue = m_WrapV.intValue = m_WrapW.intValue = (int)TextureWrapMode.Clamp;
                    m_GenerateCubemap.intValue = (int)TextureImporterGenerateCubemap.AutoCubemap;
                    m_TextureShape.intValue = (int)TextureImporterShape.Texture2D;
                    break;
                case CookieMode.Point:
                    m_BorderMipMap.intValue = 0;
                    m_WrapU.intValue = m_WrapV.intValue = m_WrapW.intValue = (int)TextureWrapMode.Clamp;
                    m_GenerateCubemap.intValue = (int)TextureImporterGenerateCubemap.Spheremap;
                    m_TextureShape.intValue = (int)TextureImporterShape.TextureCube;
                    break;
                case CookieMode.Directional:
                    m_BorderMipMap.intValue = 0;
                    m_WrapU.intValue = m_WrapV.intValue = m_WrapW.intValue = (int)TextureWrapMode.Repeat;
                    m_GenerateCubemap.intValue = (int)TextureImporterGenerateCubemap.AutoCubemap;
                    m_TextureShape.intValue = (int)TextureImporterShape.Texture2D;
                    break;
            }
        }

        internal static string[] BuildTextureStrings(int[] texFormatValues)
        {
            string[] retval = new string[texFormatValues.Length];
            for (int i = 0; i < texFormatValues.Length; i++)
            {
                int val = texFormatValues[i];
                retval[i] = " " + (val < 0 ? "Auto" : TextureUtil.GetTextureFormatString((TextureFormat)val));
            }
            return retval;
        }

        internal static bool IsFormatRequireCompressionSetting(TextureImporterFormat format)
        {
            return ArrayUtility.Contains<TextureImporterFormat>(TextureImporterInspector.kFormatsWithCompressionSettings, format);
        }

        private static bool IsPowerOfTwo(int f)
        {
            return ((f & (f - 1)) == 0);
        }

        bool CanReadWrite()
        {
            foreach (TextureImportPlatformSettings ps in m_PlatformSettings)
            {
                if (ps.model.platformTextureSettings.maxTextureSize > TextureImporter.MaxTextureSizeAllowedForReadable)
                    return false;
            }
            return true;
        }

        public virtual void BuildTargetList()
        {
            BuildPlatform[] validPlatforms = BaseTextureImportPlatformSettings.GetBuildPlayerValidPlatforms();

            m_PlatformSettings = new List<TextureImportPlatformSettings>();
            m_PlatformSettings.Add(new TextureImportPlatformSettings(s_DefaultPlatformName, BuildTarget.StandaloneWindows, this));

            foreach (BuildPlatform bp in validPlatforms)
                m_PlatformSettings.Add(new TextureImportPlatformSettings(bp.name, bp.defaultTarget, this));
        }

        public override bool HasModified()
        {
            if (base.HasModified())
                return true;

            foreach (TextureImportPlatformSettings ps in m_PlatformSettings)
            {
                if (ps.model.HasChanged())
                    return true;
            }

            return false;
        }

        protected override void ResetValues()
        {
            base.ResetValues();

            CacheSerializedProperties();

            BuildTargetList();
            System.Diagnostics.Debug.Assert(!HasModified(), "TextureImporter settings are marked as modified after calling Reset.");
            ApplySettingsToTexture();
        }

        protected override void Apply()
        {
            base.Apply();
            BaseTextureImportPlatformSettings.ApplyPlatformSettings(m_PlatformSettings.ConvertAll<BaseTextureImportPlatformSettings>(x => x as BaseTextureImportPlatformSettings));
        }

        public override void DrawPreview(Rect previewArea)
        {
            base.DrawPreview(previewArea);

            //Drawing texture previewers for VT only textures will have generated texture tile request.
            //We need to update the VT system to actually stream these tiles into VRAM and render the textures correctly.
            var ti = preview as TextureInspector;
            if (ti != null && ti.hasTargetUsingVTMaterial)
                VirtualTexturing.System.Update();
        }
    }
}
